Particle swarm optimisation-based modified SHE method for cascaded H-bridge multilevel inverters
Low-frequency switching strategies are considered as an effective way of achieving efficient performance in multilevel inverters. Selective harmonic elimination (SHE) is a modulation technique of this category which gives a superior outcome suppressing low-order detrimental harmonics. Limited number...
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| Vydané v: | IET power electronics Ročník 10; číslo 1; s. 18 - 28 |
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| Hlavní autori: | , , , |
| Médium: | Journal Article |
| Jazyk: | English |
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The Institution of Engineering and Technology
20.01.2017
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| ISSN: | 1755-4535, 1755-4543 |
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| Abstract | Low-frequency switching strategies are considered as an effective way of achieving efficient performance in multilevel inverters. Selective harmonic elimination (SHE) is a modulation technique of this category which gives a superior outcome suppressing low-order detrimental harmonics. Limited number of decision variables offered by SHE in the corresponding non-linear equations hinders obtaining high-quality waveforms. Current research is targeted on two distinct objectives for cascaded H-bridge inverters. First objective is to obtain a high-quality output signal. The second one is accomplishing a realistic solution with compromised voltage quality where a broad operating range becomes mathematically challenging. These aims are achievable by deploying additional degree of freedom in the equation set. In other words, the introduction of floating voltage levels contributes to effectively doubling the number of variables. The enhancement of output waveforms is presented through several illustrations and comparisons. Subsequent laboratory implementation validates the proposal and confirms its feasibility. |
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| AbstractList | Low-frequency switching strategies are considered as an effective way of achieving efficient performance in multilevel inverters. Selective harmonic elimination (SHE) is a modulation technique of this category which gives a superior outcome suppressing low-order detrimental harmonics. Limited number of decision variables offered by SHE in the corresponding non-linear equations hinders obtaining high-quality waveforms. Current research is targeted on two distinct objectives for cascaded H-bridge inverters. First objective is to obtain a high-quality output signal. The second one is accomplishing a realistic solution with compromised voltage quality where a broad operating range becomes mathematically challenging. These aims are achievable by deploying additional degree of freedom in the equation set. In other words, the introduction of floating voltage levels contributes to effectively doubling the number of variables. The enhancement of output waveforms is presented through several illustrations and comparisons. Subsequent laboratory implementation validates the proposal and confirms its feasibility. |
| Author | Vilathgamuwa, Don Mahinda Etesami, Mohammadhossein Ghasemi, Negareh Malan, Wynand Louis |
| Author_xml | – sequence: 1 givenname: Mohammadhossein surname: Etesami fullname: Etesami, Mohammadhossein email: m.etesami@qut.edu.au organization: Faculty of Science and Technology, Queensland University of Technology, 2 George St., GPO Box 2434, Brisbane QLD 4001, Australia – sequence: 2 givenname: Negareh surname: Ghasemi fullname: Ghasemi, Negareh organization: Faculty of Science and Technology, Queensland University of Technology, 2 George St., GPO Box 2434, Brisbane QLD 4001, Australia – sequence: 3 givenname: Don Mahinda surname: Vilathgamuwa fullname: Vilathgamuwa, Don Mahinda organization: Faculty of Science and Technology, Queensland University of Technology, 2 George St., GPO Box 2434, Brisbane QLD 4001, Australia – sequence: 4 givenname: Wynand Louis surname: Malan fullname: Malan, Wynand Louis organization: Faculty of Science and Technology, Queensland University of Technology, 2 George St., GPO Box 2434, Brisbane QLD 4001, Australia |
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| Copyright | The Institution of Engineering and Technology 2021 The Authors. IET Power Electronics published by John Wiley & Sons, Ltd. on behalf of The Institution of Engineering and Technology |
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| Keywords | voltage quality cascade networks low-frequency switching strategies particle swarm optimisation bridge circuits modulation technique power conversion harmonics floating voltage levels low-order detrimental harmonics switching convertors nonlinear equations invertors selective harmonic elimination SHE method harmonics suppression cascaded H-bridge multilevel inverters |
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| Snippet | Low-frequency switching strategies are considered as an effective way of achieving efficient performance in multilevel inverters. Selective harmonic... Low‐frequency switching strategies are considered as an effective way of achieving efficient performance in multilevel inverters. Selective harmonic... |
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| SubjectTerms | bridge circuits cascade networks cascaded H‐bridge multilevel inverters Electric potential Electronics floating voltage levels Harmonics harmonics suppression Inverters invertors low‐frequency switching strategies low‐order detrimental harmonics Mathematical analysis modulation technique Multilevel nonlinear equations particle swarm optimisation power conversion harmonics selective harmonic elimination SHE method switching convertors Voltage voltage quality Waveforms |
| Title | Particle swarm optimisation-based modified SHE method for cascaded H-bridge multilevel inverters |
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